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Thermo Scientific TSQ Quantum XLS Ultra
 
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  Thermo Scientific TSQ Quantum XLS Ultra


The TSQ Quantum XLS improves laboratory efficiency and throughput. The robust design of the system offers greater flexibility, high-speed data acquisition and more sample runs, further increasing laboratory productivity.

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The Thermo Scientific TSQ Quantum XLS delivers the next evolution in routine GC triple quadrupole mass spectrometry for your GC/MS trace analysis. The TSQ Quantum XLS defines a new standard of excellence in GC-MS/MS structure selective detection for multi-component target compound quantitation in food safety, environmental, forensic, toxicological, pharmaceutical, clinical research, and petrochemical laboratories.

The ability to change from EI to CI without venting the system ortoconvert the TSQ Quantum GC between GC and LC modes provides extreme flexibility to meet your mass spectrometry needs.

Featuring the innovative Thermo Scientific DuraBrite IRIS high sensitivity ion source, the TSQ Quantum XLS enables extended intervals between maintenance for uninterrupted 24/7 operation. In addition, highly inert and exchangeable ion volumes allow for quick preventive maintenance within minutes without venting the vacuum system.

  • Incomparable femtogram level sensitivity for food safety, environmental, forensic and pharmaceutical applications
  • Comprehensive analyses with a virtually unlimited number of target compounds in one GC run.
  • EZ-method for confirmation of retention time and SRM ion ratios compliant with international regulations.
  • Enhanced sensitivity and performance with short GC runs and optional backflush cleaning.
  • Higher overall productivity for large sample series during unattended operation with remote office results processing and reporting.
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Signature Benefits

Run More Samples - DuraBrite IRIS™ technology inside

High Precision Results - Lowest limits of quantitation

Quick source maintenance without venting - Exchangable ion volumes

Highest selectivity for heavy matrix samples – Highly-Selective Reaction Monitoring (H-SRM)

Unambiguous confirmation -Structure-Selective Detection (SSD)

Simultaneous quantitation and structural confirmation - Quantitation- Enhanced Data-Dependent MS/MS (QED)

High-speed data acquisition - virtually unlimited multi-component analysis in one run

Elimination of false positives -Unique zero cross-talk angled collision cell

Exceptional Versitility - Switchable between GC and LC modes

CI capacity is standard with quick change from EI to CI providing an extremely flexible system to meet your mass spectrometry needs
 
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Purchase Details
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Specifications:
Mass Stability :± 0.1 Da over > 24 hours
Ultra High Selective Selected Reaction Monitoring (U-SRM) :mass resolution to 0.1 Da peak width (FWHM)
Mass Resolution :Adjustable from 0.1 Da to 5.0 Da peak width (FWHM) (Q1 and Q3)
Minimum Dwell Time :1 ms for SRM and U-SRM operation
Collision Energy Range : 0 ?200 eV
Collision Gases :argon (specified) or nitrogen
Mass Range :m/z 10?3000
Full Mass Scan Rate :5,000 Da/s
Electron Energy :Adjustable from 0 to 140 eV
Emission Current :up to 1000 ?A
Electron Ionization U-SRM Installation Specification :1 ?L of a 100 fg/?L of octafluoronaphthalene (OFN) will produce a > 2500:1 S/N for the transition of m/z 271.99 to the product ion of m/z 240.99
Selectivity Specifications :
Electron Ionization U-SRM in Matrix :1 ?L of a 100 fg/?L standard of octafluoronaphthalene (OFN) with 1% diesel oil in iso-octane will produce a minimum S/N ratio of > 500:1 or the transition of m/z 271.99 to the product ion of m/z 240.99
Quantitative Precision :10 sequential injections of 100 fg OFN will produce an area precision of < 6% RSD at 0.2 Da mass resolution (FWHM)
Electron Ionization Full Scan :1 ?L of a 1 pg/?L standard of octafluoronaphthalene (OFN) in iso-octane will produce a S/N ratio of > 400:1 for m/z 271.990 fg OFN will produce an area precision of < 6% RSD at 0.2 Da mass resolution (FWHM)
Electron Ionization SIM :1?L of a 25 fg/?L standard of octafluoronaphthalene (OFN) in iso-octane will produce a S/N ratio of > 50:1 for m/z 271.99
Electron Ionization U-SIM :1 ?L of a 25 fg/?L standard of octafluoronaphthalene (OFN) in iso-octane will produce a S/N ratio of > 50:1 for m/z 271.99
Positive Chemical Ionization U-SRM :1 ?L of a 100 fg/?L standard of d10-labelled benzophenone (BZP) in n-heptane will produce a inimum S/N ratio of > 150:1 for the transition of the protonated molecular ion at m/z 183.08 to the product ion at m/z 105.03
Positive Chemical Ionization Full Scan :1?L of a 10 pg/?L standard of benzophenone in n-heptane will produce a S/N ratio of > 25:1 for the protonated molecular ion at m/z 183.08
Positive Chemical Ionization SIM :1 ?L of a 1 pg/?L standard of benzophenone in n-heptane will produce a S/N ratio of > 50:1 for the protonated molecular ion at m/z 183.08
Negative Chemical Ionization Full Scan :1 ?L of a 1 pg/?L standard of OFN in iso-octane will produce a S/N ratio of > 2500:1 for m/z 271.9
Negative Chemical Ionization SIM :1 ?L of a 10 fg/?L standard of OFN in iso-octane will produce a S/N ratio of > 300:1 for m/z 271.99